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Ceres

  (sîr'ēz) pronunciation
n.
  1. Roman Mythology. The goddess of agriculture.
  2. A dwarf planet orbiting in the asteroid belt between Mars and Jupiter.

[Latin Cerēs.]


 
 
Sci-Tech Encyclopedia: Ceres

The first asteroid discovered. It was found serendipitously by G. Piazzi on January 1, 1801. With a diameter of roughly 950 km (590 mi), Ceres is the largest asteroid but not the brightest since it reflects only 10% of the visual light it receives. Ceres' mass of 9.5 × 1020 kg (2.1 × 1021 lb, that is, 1.6 × 10−4 that of the Earth) contains approximately one-third of the asteroid belt's total mass. See also Asteroid.

 
Britannica Concise Encyclopedia: Ceres

Dwarf planet and largest known asteroid in the solar system and the first asteroid discovered, in 1801. Named after the Roman goddess Ceres, it revolves around the Sun in 4.61 Earth years, rotates once in 9.1 hours, and is about 585 mi (940 km) across. Its mass accounts for more than one-third the total mass of the asteroid belt. Ceres was designated a dwarf planet, a category of solar system object defined by the International Astronomical Union in August 2006.

For more information on Ceres, visit Britannica.com.

 
Columbia Encyclopedia: Ceres
(sîr'ēz) , in astronomy, a dwarf planet, the first asteroid to be discovered. It was found on Jan. 1, 1801, by G. Piazzi. He took three distinct observations; on the basis of these the mathematician Gauss calculated Ceres' orbit with such accuracy that it was found one year later within 0.5° of the predicted position. Ceres is the largest and most massive of the asteroids; it has a diameter of c.590 mi (949 km) and a mass 1/100,000 that of the earth. Its orbit has a semimajor axis of 2.78 astronomical units and a period of 1,681 days. From its discovery until the 1850s, when many additional asteroids began to be identified, Ceres was regarded by many astronomers as a planet. In 2006 the reconsideration by astronomers of Pluto's status as a planet also led to the reclassification of Ceres as a dwarf planet.

 
Wikipedia: Ceres (dwarf planet)
For other uses, see Ceres.
Ceres  Ceres_symbol.svg
Ceres_optimized.jpg
Ceres
Discovery
Discovered by: Giuseppe Piazzi
Discovery date: January 1, 1801
Orbital characteristics
Epoch November 26, 2005
(JD 2453700.5)[1]
Aphelion 447,838,164 km
2.987 AU
Perihelion: 381,419,582 km
2.544 AU
Semi-major axis: 414,703,838 km
2.765 956 424 AU[2]
Eccentricity: 0.07976017[2]
Orbital period: 1679.819 days
4.599 years
Avg. orbital speed: 17.882 km/s
Mean anomaly: 108.509°
Inclination: 10.586712°[2]
Longitude of ascending node: 80.40696°[2]
Argument of perihelion: 73.15073°[2]
Physical characteristics
Equatorial radius: 487.3 ± 1.8 km[3]
Polar radius: 454.7 ± 1.6 km[3]
Flattening: 0.067 ± 0.005
Mass: 9.46 ± 0.04×1020 kg[4][5]
Mean density: 2.08 g/cm³[3]
Equatorial surface gravity: 0.27 m/s²
0.028 g
Escape velocity: 0.51 km/s
Sidereal rotation period: 0.3781 d
9.074 h[6]
Albedo: 0.113[7]
Surface temp.:
   Kelvin
min mean max
~167 K[8] 239 K[8]
Spectral type: G[9]
Apparent magnitude: 6.7 [10]
Absolute magnitude: 3.34[7]
Angular size: 0.84"[11]

Ceres (IPA: /ˈsɪəriz/, Latin: Cerēs), also designated 1 Ceres (see minor planet names), is the smallest dwarf planet in the Solar System and the only one in the main asteroid belt. It was discovered on January 1 1801, by Giuseppe Piazzi,[12] and is named after the Roman goddess Ceres—the goddess of growing plants, the harvest, and of motherly love.

With a diameter of about 950 km, Ceres is by far the largest and most massive body in the asteroid belt, and contains approximately a third of the belt's total mass. Recent observations have revealed that it is spherical, unlike the irregular shapes of smaller bodies with lower gravity. At its brightest it is still too dim to be seen with the naked eye.[13]

On September 27, 2007, NASA launched the Dawn Mission space probe to explore Ceres and Vesta.

Discovery

Piazzi was searching for a star listed by Francis Wollaston as Mayer 87 because it was not in Mayer's zodiacal catalogue in the position given.[14] Instead, Piazzi found a moving star-like object, which he thought at first was a comet.

Piazzi observed Ceres a total of 24 times, the final time on February 11, when illness interrupted. On January 24 1801, Piazzi announced his discovery in letters to fellow astronomers, among them his fellow countryman, Barnaba Oriani of Milan. He reported it as a comet but "since its movement is so slow and rather uniform, it has occurred to me several times that it might be something better than a comet".[14] In April, Piazzi sent his complete observations to Oriani, Bode, and Lalande in Paris. The information was published in the September, 1801 issue of the Monatliche Correspondenz.

To recover Ceres, Carl Friedrich Gauss, then only 24 years old, developed a method of orbit determination from three observations. In only a few weeks, he predicted its path, and sent his results to Franz Xaver, Baron von Zach, the editor of the Monatliche Correspondenz. On December 31 1801, von Zach and Heinrich W. M. Olbers unambiguously confirmed the recovery of Ceres.

Piazzi's Book "Della scoperta del nuovo pianeta Cerere Ferdinandea" outlining the discovery of Ceres
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Piazzi's Book "Della scoperta del nuovo pianeta Cerere Ferdinandea" outlining the discovery of Ceres

Name

Piazzi originally suggested the name Ceres Ferdinandea (Ital­ian, Cerere Ferdinan­dea) for this body, after both the mythological figure Ceres (Roman goddess of plants) and King Ferdinand III of Sicily.[15] "Ferdinandea" was not acceptable to other nations of the world and was thus dropped. Ceres was also called Hera for a short time in Germany.[16] In Greece, it is called Δήμητρα (Demeter), after the goddess Ceres' Greek equivalent; in English usage, Demeter is the name of an asteroid (1108 Demeter).

Due to the rarity of the usage, there is no consensus as to the proper adjectival form of the name, although the nonce forms Cerian and Cerean have been used in fiction. Grammatically, the form Cererean would be correct, derived from its Latin genitive, Cereris.

The element Cerium was named after Ceres.[17] The element Palladium was originally also named after Ceres, but the discoverer changed its name after Cerium was named. Palladium is named after asteroid 2 Pallas.[18]

Ceres' astronomical symbol is a sickle, (Sickle variant symbol of Ceres), similar to Venus' symbol (Astronomical symbol of Venus) which is the female gender symbol and Venus' hand mirror.[19] There have been several variants of the sickle design, including Old symbol of Ceres, Mirror variant symbol of Ceres and Other sickle variant symbol of Ceres.

Status

Ceres (left) in comparison with the Moon (right).
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Ceres (left) in comparison with the Moon (right).
Ceres, the Moon and the Earth.
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Ceres, the Moon and the Earth.

The classification of Ceres has changed more than once and has been the subject of some disagreement. At the time of its discovery it was considered a planet; but within forty-nine years it was reclassified by many astronomers as an asteroid. This lasted for over 150 years; and was first classified a dwarf planet in 2006.

Johann Elert Bode believed Ceres to be the "missing planet" that Johann Daniel Titius had proposed to exist between Mars and Jupiter, at a distance of 419 million km (2.8 AU) from the Sun. Ceres was assigned a planetary symbol, and remained listed as a planet in astronomy books and tables (along with 2 Pallas, 3 Juno and 4 Vesta) for about half a century until further asteroids were discovered. However as further objects were discovered in the area it was realised that it represented the first of a class of many similar bodies. Sir William Herschel coined in 1802 the term asteroid ("star-like") for such bodies,[20] writing "they resemble small stars so much as hardly to be distinguished from them, even by very good telescopes".[21] As the first such body to be discovered, it was given the designation 1 Ceres under the modern system of asteroid numbering.

The 2006 debate surrounding Pluto and what constitutes a 'planet' led to Ceres being considered for reclassification as a planet.[22][23] An unsuccessful proposal before the International Astronomical Union for the definition of a planet would have defined a planet as "a celestial body that (a) has sufficient mass for its self-gravity to overcome rigid body forces so that it assumes a hydrostatic equilibrium (nearly round) shape, and (b) is in orbit around a star, and is neither a star nor a satellite of a planet".[24] Had this resolution been adopted, this would have made Ceres the fifth planet in order from the Sun.[25] This draft definition was not accepted, and in its place an alternate definition of "planet" came into effect as of August 24, 2006. Under this definition, a 'planet' is "a celestial body that is in orbit around the sun, has sufficient mass for its self-gravity to overcome rigid body forces so that it assumes a ... nearly round shape, and has cleared the neighborhood around its orbit." By this definition, Ceres (along with Pluto) cannot be classified as a planet, and both are now classified as "dwarf planets", although it remains unclear as to whether or not it is also classified as an asteroid.[26]

Physical characteristics

Size comparison: the first 10 minor planets profiled against Earth's Moon. Ceres is far left.
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Size comparison: the first 10 minor planets profiled against Earth's Moon. Ceres is far left.
Hubble Space Telescope images of Ceres, taken in 2003/4 with a resolution of about 30 km. The nature of the bright spot is uncertain. A movie was also made.[27]
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Hubble Space Telescope images of Ceres, taken in 2003/4 with a resolution of about 30 km. The nature of the bright spot is uncertain. A movie was also made.[27]
Hubble Space Telescope UV image of Ceres, taken in 1995 with a resolution of about 60 km. The "Piazzi" feature is the dark spot in the center.
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Hubble Space Telescope UV image of Ceres, taken in 1995 with a resolution of about 60 km. The "Piazzi" feature is the dark spot in the center.

Ceres is the largest object in the asteroid belt, which mostly lies between Mars and Jupiter. However, it is not the largest object besides the Sun, planets and their satellites, in the solar system: the Kuiper belt is known to contain larger objects, including Pluto, 50000 Quaoar, and 90482 Orcus, while more distant Eris, in the scattered disc, is the largest of all these objects. The still more distant 90377 Sedna, variously described as a member of the 'inner Oort cloud' or 'extended scattered disc', is also larger.

At certain points in its orbit, Ceres can reach a visual magnitude of +6.7.[10] This is generally regarded as being just barely too dim to be seen with the naked eye, but under exceptional viewing conditions a very sharp-sighted person may be able to see this dwarf planet with the naked eye. The only asteroids that can reach so bright a magnitude are 4 Vesta, and, during rare oppositions near perihelion, 2 Pallas and 7 Iris.[28] At conjunction Ceres has a magnitude of around +9.5, which corresponds to the faintest objects visible with 10×50 binoculars. It can thus be seen with binoculars whenever it is above the horizon of a fully dark sky. Pallas and Iris, though brighter at a near-perihelion opposition, are beyond binocular visibility at small elongations.

Ceres' size and mass are sufficient to give it a nearly spherical shape. That is, it is close to hydrostatic equilibrium. Large asteroids such as 2 Pallas, 3 Juno, and 4 Vesta are known to be quite irregular, while lightcurve analysis of 10 Hygiea indicates it is oblong although it appears spheroidal in low-resolution images (presumably due to viewing angle).

With a mass of 9.5 ×1020 kg, Ceres comprises about a third of the estimated total 3.0 ± 0.2 ×1021 kg mass of the asteroids in the solar system,[4] together totalling about 4% of the mass of the Moon.

There are some indications that the surface of Ceres is relatively warm and that it may have a tenuous atmosphere and frost. The maximum temperature with the Sun overhead was estimated from measurements to be 235 K (about -38°C) on May 5 1991.[8] Taking into account also the heliocentric distance at the time, this gives an estimated maximum of ~239 K at perihelion.

Diagram showing differentiated layers of Ceres
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Diagram showing differentiated layers of Ceres

A study led by Peter Thomas of Cornell University suggests that Ceres has a differentiated interior: observations coupled with computer models suggest the presence of a rocky core overlain with an icy mantle. This mantle of thickness from 120 to 60 km could contain 200 million cubic kilometres of water, which is more than the amount of fresh water on the Earth.[29][3]

There has been some ambiguity regarding surface features on Ceres. Low resolution ultraviolet Hubble Space Telescope images taken in 1995 showed a dark spot on its surface which was nicknamed "Piazzi" in honour of the discoverer of Ceres. This was thought to be a crater. Later images with a higher resolution taken over a whole rotation with the Keck telescope using adaptive optics showed no sign of "Piazzi". However, two dark features were seen to move with the dwarf planet's rotation, one with a bright central region. These are presumably craters. More recent visible light Hubble Space Telescope images of a full rotation taken in 2003 and 2004 show an enigmatic white spot, the nature of which is currently unknown.[30] The dark albedo features seen with Keck are, however, not immediately recognizable in these images.

These last observations also determined that Ceres' north pole points (give or take about 5°) in the direction of right ascension 19 h 24 min, declination +59°, in the constellation Draco. This means that Ceres' axial tilt is very small (about 4±5°).[3]

Orbit

Orbit of Ceres
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Orbit of Ceres

Ceres follows an orbit between Mars and Jupiter, within the main asteroid belt, with a period of 4.6 years. The orbit is moderately inclined (i=10.6° compared to 7° for Mercury and 17° for Pluto) and moderately eccentric (e=0.08 compared to 0.09 for Mars).

The diagram illustrates the orbits of Ceres (blue) and several planets (white/grey). The segments of orbits below the ecliptic are plotted in darker colours, and the orange plus sign is the Sun's location. The top left diagram is a polar view that shows the location of Ceres in the gap between Mars and Jupiter. The top right is a close-up demonstrating the locations of the perihelia (q) and aphelia (Q) of Ceres and Mars. The perihelion of Mars is on the opposite side of the Sun from those of Ceres and several of the large main belt asteroids, including 2 Pallas and 10 Hygiea. The bottom diagram is a perspective view showing the inclination of the orbit of Ceres compared to the orbits of Mars and Jupiter.

In the past, Ceres had been considered to be the largest member of an asteroid family. These groupings of asteroids share similar orbital elements, which can indicate a common origin through an asteroid collision some time in the past. In the case of Ceres, however, it has different spectral properties from the other members of the family, and so this grouping is now called the Gefion family, named after the lowest-numbered family member, 1272 Gefion. Ceres is merely an interloper in this family, coincidentally having similar orbital elements but not a common origin.[31]

Observations

Some notable observation milestones for Ceres include:

An occultation of a star by Ceres was observed in Mexico, Florida and across the Caribbean on November 13 1984.

Features on Ceres' surface have been telescopically imaged several times in recent years.

These include:

Radio signals from spacecraft in orbit around Mars and on its surface have been used to estimate the mass of Ceres from the perturbations induced by it onto the motion of Mars.[4]

Exploration

Artist's conception of Dawn visiting Ceres and Vesta.
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Artist's conception of Dawn visiting Ceres and Vesta.

To date no space probes have visited Ceres. However, NASA launched the Dawn Mission on 27 September 2007, which will explore the asteroid 4 Vesta in 2011 before arriving at Ceres in 2015.

The mission profile calls for the Dawn Spacecraft to enter orbit around Ceres at an altitude of 5,900 km. After five months of study the spacecraft will reduce the orbital distance to 1,300 km, then down to 700 km after another five months.[35] The spacecraft instrumentation includes a framing camera, a visual and infrared spectrometer, and a gamma-ray and neutron detector. These will be used to examine the dwarf planet's shape and element abundance.[36]

See also


Notes

  1. ^ Ted Bowell, Bruce v (January 2, 2003). Asteroid Observing Services. Lowell Observatory. Retrieved on 2007-01-17.
  2. ^ a b c d e Yeomans, Donald K. (July 5, 2007). 1 Ceres. JPL Small-Body Database Browser. Retrieved on 2007-07-05.—The listed values were rounded at the magnitude of uncertainty (1-sigma).
  3. ^ a b c d e P. C. Thomas et al Differentiation of the asteroid Ceres as revealed by its shape, Nature, Vol. 437, pp. 224 (2005).
  4. ^ a b c Pitjeva, E. V. (2005). "High-Precision Ephemerides of Planets — EPM and Determination of Some Astronomical Constants" (PDF). Solar System Research 39 (3): 176. DOI:10.1007/s11208-005-0033-2. 
  5. ^ D. T. Britt et al Asteroid density, porosity, and structure, pp. 488 in Asteroids III, University of Arizona Press (2002).
  6. ^ Harris, A. W.; Warner, B.D.; Pravec, P.; Eds. (2006). Asteroid Lightcurve Derived Data. EAR-A-5-DDR-DERIVED-LIGHTCURVE-V8.0.. NASA Planetary Data System. Retrieved on 2007-03-15.
  7. ^ a b Tedesco, E.F.; Noah, P.V.; Noah, M.; Price, S.D. (2004). IRAS Minor Planet Survey. IRAS-A-FPA-3-RDR-IMPS-V6.0.. NASA Planetary Data System. Retrieved on 2007-03-15.
  8. ^ a b c O. Saint-Pé Ceres surface properties by high-resolution imaging from earth, Icarus, vol. 105 pp. 271 (1993).
  9. ^ Neese, C.; Ed. (2005). Asteroid Taxonomy.EAR-A-5-DDR-TAXONOMY-V5.0.. NASA Planetary Data System. Retrieved on 2007-03-15.
  10. ^ a b
  11. ^ Ceres Angular Size @ Feb 2009 Opposition: 974km dia / (1.58319AU * 149 597 870km) * 206265 = 0.84"
  12. ^ Piazzi, Giuseppe (1801). Risultati delle osservazioni della nuova Stella scoperta il dì 1 gennajo all'Osservatorio Reale di Palermo (in Italian). 
  13. ^ Ceres at Solarviews.com
  14. ^ a b Hoskin, Michael (June 26, 1992). Bodes' Law and the Discovery of Ceres. Observatorio Astronomico di Palermo "Giuseppe S. Vaiana". Retrieved on 2007-07-05.
  15. ^ Hoskin, Michael. Bodes' Law and the Discovery of Ceres. Osservatorio Astronomico Di Palermo Giuseppe S. Vaiana. Retrieved on 2007-01-17.
  16. ^ Foderà Serio, G.; Manara, A.; Sicoli, P. (2002). "Giuseppe Piazzi and the Discovery of Ceres", in W. F. Bottke Jr., A. Cellino, P. Paolicchi, and R. P. Binzel: Asteroids III (PDF), Tucson, Arizona: University of Arizona Press, pp. 17-24. 
  17. ^ Staff. Cerium: historical information. Adaptive Optics. Retrieved on 2007-04-27.
  18. ^ Amalgamator Features 2003: 200 Years Ago. Retrieved on 2006-08-21.
  19. ^ Gould, B. A. (1852). "On the symbolic notation of the asteroids". Astronomical Journal 2 (34): 80. Retrieved on 2007-07-05. 
  20. ^ Hilton, Dr. J. L. (September 17 2001). When Did the Asteroids Become Minor Planets?. Retrieved on 2006-08-16.
  21. ^ Herschel, William (May 6 1802). Observations on the two lately discovered celestial Bodies..
  22. ^ Battersby, Stephen (August 16, 2006). Planet debate: Proposed new definitions. New Scientist. Retrieved on 2007-04-27.
  23. ^ Connor, Steve. "Solar system to welcome three new planets", NZ Herald, August 16, 2006. Retrieved on 2007-04-27. 
  24. ^ Owen Gingerich et al (August 16, 2006). The IAU draft definition of "Planet" and "Plutons". IAU. Retrieved on 2007-04-27.
  25. ^ Staff Writers (August 16, 2006). The IAU Draft Definition Of Planets And Plutons. Space Daily. Retrieved on 2007-04-27.
  26. ^ Richard Binzel et al (August 24, 2006). IAU 2006 General Assembly: Result of the IAU resolution votes. IAU. Retrieved on 2007-04-27. — "Ceres was an asteroid" - but note it then talks about "other asteroids" crossing Ceres' path.
  27. ^ Cooke, Bill. "An icy interior for Ceres?", Astronomy, September 12 2005.  movie credit J. Parker, Southwest Research Institute
  28. ^ Martinez, Patrick, The Observer's Guide to Astronomy, page 298. Published 1994 by Cambridge University Press
  29. ^ "Largest Asteroid Might Contain More Fresh Water than Earth", SPACE.com, 07 September 2005. Retrieved on 2006-08-16. 
  30. ^ a b "Largest Asteroid May Be 'Mini Planet' with Water Ice", HubbleSite, September 7 2005. Retrieved on 2006-08-16. 
  31. ^ Kelley, M. S.; Gaffey, M. J. (1996). "A Genetic Study of the Ceres (Williams #67) Asteroid Family". Bulletin of the American Astronomical Society 28: 1097. Retrieved on 2007-04-27. 
  32. ^ Observations reveal curiosities on the surface of asteroid Ceres. Retrieved on 2006-08-16.
  33. ^ J. W. Parker et al Analysis of the first disk-resolved images of Ceres from ultraviolet observations with the Hubble Space Telescope, The Astronomical Journal, Vol. 123 pp. 549 (2002).
  34. ^ Staff (October 11, 2006). Keck Adaptive Optics Images the Dwarf Planet Ceres. Adaptive Optics. Retrieved on 2007-04-27.
  35. ^ Rayman, Marc (2006-07-13). Dawn: mission description. UCLA — IGPP Space Physics Center. Retrieved on 2007-04-27.
  36. ^ Ambrosiano, Nancy (April 10, 2007). GRaND science instrument moves closer to launch from Cape. Los Alamos National Laboratory. Retrieved on 2007-04-27.

References

External links


Minor planets
(asteroid navigator) 1 Ceres Next minor planet
List of asteroids          Pronunciation
The Solar System
<imagemap>

Image:Solar System XXVII.png

  1. The Sun

rect 0 0 90 35 The Sun

  1. Mercury

circle 112 18 6 Mercury

  1. Venus

circle 153 18 8 Venus

  1. Earth and the Moon

circle 203 8 4 The Moon circle 194 18 8 Earth

  1. Mars and satellites

circle 239 13 3 Phobos and Deimos circle 233 18 8 Mars

  1. Ceres and the asteroid belt
  2. - by placing the rectangle code for the asteroid belt AFTER Ceres, Ceres is "on top" (and can co-exist)

circle 271 18 8 Ceres rect 256 0 288 35 The asteroid belt

  1. Jupiter and satellites

circle 316 18 15 Jupiter circle 329 5 6 Moons of Jupiter

  1. Saturn and satellites

circle 372 18 10 Saturn circle 381 7 6 Moons of Saturn

  1. Uranus and satellites

circle 418 18 9 Uranus circle 427 10 6 Moons of Uranus

  1. Neptune and satellites

circle 471 10 3 Moons of Neptune circle 462 18 12 Neptune

  1. Pluto, satellites, and the Kuiper belt
  2. - by placing the rectangle code for the Kuiper belt AFTER Pluto, Pluto is "on top" (and can co-exist)

circle 508 13 3 Moons of Pluto circle 504 18 8 Pluto rect 492 0 527 35 The Kuiper Belt

  1. Eris, Dysnomia, and the Scattered disc
  2. - by placing the rectangle code for the Scattered disc AFTER Eris, Eris is "on top" (and can co-exist)

circle 544 14 3 Dysnomia circle 540 18 8 Eris rect 528 0 567 35 The Scattered Disc rect 568 0 597 35 The Oort Cloud

desc none

  1. - setting this to "bottom-right" will display a (rather large) icon linking to the graphic, if desired
  1. Notes:
  2. Details on the new coding for clickable images is here: [1]
  3. The smaller planets have a bit of an overlap just to ensure they're locatable, especially in the belts.
  4. While it may look strange, it's important to keep the codes for a particular system in order. The clickable coding treats the first object created in an area as the one on top.
  5. - I've placed moons on "top" so that their smaller circles won't disappear "under" their respective planets or dwarf planets.
  6. The "poly" code would be more appropriate for the moons of Jupiter, Saturn, and Uranus. However, there appears to be a bug with that aspect of the code.
  7. - I've compensated by using oversized circles for those moon groups, and tucking them UNDER their planets for now.
  8. The Sun is a rectangle as that approximates the edge closely enough for the purposes of this template.
  9. I've guessed as to the boundaries for the KB, SD, and OC - if they need adjustment, load the image into Paint and use the pencil tool to find the appropriate coordinates.

</imagemap>
The Sun · Mercury · Venus · Earth · Mars · Ceres · Jupiter · Saturn · Uranus · Neptune · Pluto · Eris
Planets · Dwarf planets · Moons: Terrestrial · Martian · Jovian · Saturnian · Uranian · Neptunian · Plutonian · Eridian
Small bodies:   Meteoroids · Asteroids/Asteroid moons (Asteroid belt) · Centaurs · TNOs (Kuiper belt/Scattered disc) · Comets (Oort cloud)
See also astronomical objects, the solar system's list of objects, sorted by radius or mass, and the Solar System Portal

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Dictionary. The American Heritage® Dictionary of the English Language, Fourth Edition Copyright © 2007, 2000 by Houghton Mifflin Company. Updated in 2007. Published by Houghton Mifflin Company. All rights reserved.  Read more
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